SU1245748A1 - Electromagnetic compressor - Google Patents

Description

The invention relates to compressor engineering and concerns electromagnetic compressors.

The purpose of the invention is to increase the efficiency and reliability of the compressor.

FIG. 1 shows an electromagnetic compressor, a longitudinal section; in fig. 2 — node I in FIG. one.

The electromagnetic compressor contains a cylinder 1 of non-magnetic material with suction and discharge valves, which surrounds its field windings, connected to a power source (not shown), and mounted in cylinder 1 to form an annular gap L of a non-magnetic material. An annular gap L is filled with ferromagnetic fluid 3 and each field winding is made up of concentrically arranged sections 4 connected autonomously to a power source (not shown), and each valve is shaped like an annular permanent magnet 5 with a central hole 6 filled with ferromagnetic liquid 3. The piston 2 forms in the cylinder the working cavity 7.

The compressor works as follows.

When a voltage is applied to the field 4 of the field windings, the piston 2 under the action of the electromagnetic field begins to mix to one of the extreme positions, while in the working cavity 7 in the direction of movement of the piston 2 the magnetic field of the magnet 5 holding the ferromagnetic liquid 3 increases. suction valve

by coinciding with the electromagnetic field of the excitation windings, and compressing the gas until it breaks the ferromagnetic fluid 3 in the central hole 6 of the ring constant magnet 5 of the discharge valve, and in the opposite working cavity 7 - weakening the magnetic field of the magnet 5 that holds the ferromagnetic fluid 3 of the suction valve, due to its mismatch with the electromagnetic field of the excitation windings and the suction of gas through the ferromagnetic fluid 3 of the suction valve that it breaks through. When the voltage supply direction is changed on the excitation winding section 4, the processes occurring in the working cavities 7 are interchanged, and the ferromagnetic fluid 3 placed in the annular gap L is retained due to the interaction of the electromagnetic field generated by the windings 2.

A change in the degree of compression and compressor capacity is achieved by varying the connection of sections 4 of the field windings.

Thus, filling the annular gap with a ferromagnetic fluid and performing each excitation winding in the form of concentrically located sections autonomously connected to the power source, and each valve in the form of an annular permanent magnet with a central hole filled with ferromagnetic fluid, can improve the efficiency and reliability of operation. .

FIG. 2

Claims (1)

ELECTROMAGNETIC COMPRESSOR, comprising a cylinder of non-magnetic material with suction and discharge valves, winding excitation windings connected to a power source, and a piston made of magnetic material installed in the cylinder with the formation of an annular gap, characterized in that, in order to increase efficiency and reliability , the annular gap is filled with ferromagnetic fluid, and each field winding is made in the form of concentrically arranged sections, independently connected to a power source, each valve - as an annular permanent magnet with a central hole filled with ferrofluid. Figure 1 SU,., 1245748